Organic synthesis is the cornerstone of modern chemical innovation, enabling the creation of novel compounds for a myriad of applications, from life-saving pharmaceuticals to advanced materials. Within this intricate field, specific chemical intermediates serve as foundational building blocks, offering chemists the molecular frameworks to construct complex target molecules. One such pivotal intermediate is 4-Chlorobenzenamine Hydrochloride, identified by its CAS number 20265-96-7.

As a chemical intermediate, CAS 20265-96-7, commonly known as 4-Chlorobenzenamine Hydrochloride, possesses a unique structural profile: an aniline ring substituted with a chlorine atom at the para position, further modified as a hydrochloride salt. This structure makes it highly reactive and versatile for a wide range of chemical transformations. Its physical form is typically a white powder, and its molecular weight is approximately 164.03 g/mol.

The utility of 4-Chlorobenzenamine Hydrochloride in organic synthesis is extensive. It serves as a crucial starting material or intermediate in the preparation of pharmaceuticals, agrochemicals, and notably, dyes. The presence of the amino group allows for reactions such as acylation, alkylation, and diazotization, while the chlorine atom can undergo nucleophilic substitution or participate in cross-coupling reactions. For R&D scientists, understanding these reaction pathways is key to designing efficient synthetic routes. If you need to purchase this intermediate for your lab, sourcing from a reliable manufacturer is crucial for consistent results.

When seeking to buy this compound, chemists and procurement managers look for assured purity and reliable supply. Manufacturers often provide detailed specifications, including melting point (around 230°C subl.) and solubility data, which are vital for process development. The hydrochloride salt form often enhances solubility in polar solvents, making it easier to handle in various reaction conditions compared to the free base.

The stability and handling of CAS 20265-96-7 are also important considerations. Typically stored in sealed containers, away from high temperatures and direct sunlight, it maintains its quality. For companies that regularly require this intermediate, establishing a partnership with a reputable supplier or manufacturer in China ensures consistent access and competitive pricing, facilitating seamless integration into their production workflows.

In essence, CAS 20265-96-7 is an indispensable tool for the synthetic chemist. Its well-defined reactivity and availability from trusted suppliers make it a go-to intermediate for building molecular complexity. Whether for academic research or industrial-scale manufacturing, understanding its properties and sourcing it from a dependable source are the first steps towards successful synthesis outcomes.